CN218023606U - High-speed conveyor of empty bottle - Google Patents

High-speed conveyor of empty bottle Download PDF

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Publication number
CN218023606U
CN218023606U CN202221328276.9U CN202221328276U CN218023606U CN 218023606 U CN218023606 U CN 218023606U CN 202221328276 U CN202221328276 U CN 202221328276U CN 218023606 U CN218023606 U CN 218023606U
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China
Prior art keywords
end plate
empty
empty bottles
shell
conveying device
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CN202221328276.9U
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Chinese (zh)
Inventor
史中伟
史正
蔡周君
周菲帆
叶建新
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Hangzhou Zhongya Machinery Co Ltd
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Hangzhou Zhongya Machinery Co Ltd
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Abstract

The utility model discloses a high-speed empty bottle conveying device, which comprises a shell, a conveying belt and a driving device, wherein the shell extends along the horizontal direction and is provided with an air suction port with an upward opening, and the shell is provided with an air suction port; the conveyer belt is provided with a plurality of absorption holes, and the conveyer belt sets up and including setting up the support section that is used for supporting the empty bottle on the induction port around the outside of casing, forms the negative pressure cavity between support section and the casing, and drive arrangement and conveyer belt are connected and are used for driving the conveyer belt operation. The utility model provides a pair of high-speed conveyor of empty bottle has following beneficial effect: 1. under the action of the negative pressure chamber, the empty bottles are adsorbed on the conveying belt when being conveyed, so that the stability of the empty bottles is greatly enhanced, the empty bottles do not need to be close to each other, and the empty bottles are convenient to group; 2. the end parts of the conveying belts are turned through the first bearing and the second bearing, so that the transition between the adjacent conveying belts is facilitated; 3. the upside of conveyer belt is provided with two guardrails, carries on spacingly to the side direction of empty bottle.

Description

High-speed conveyor of empty bottle
Technical Field
The utility model relates to a conveyor technical field especially relates to a high-speed conveyor of empty bottle.
Background
The prior art is when carrying empty bottle for empty bottle's quality is lighter, emptys easily on conveyor, in order to guarantee the stability of empty bottle, adjacent each other between the empty bottle, and the clearance is very little or does not have the clearance between the empty bottle. Finally, the prior art is inconvenient for grouping the empty bottles at the output end.
SUMMERY OF THE UTILITY MODEL
The utility model discloses a solve prior art when carrying empty bottle, empty bottle is adjacent each other, and the shortcoming of the grouping of the empty bottle of being not convenient for provides a high-speed conveyor of empty bottle.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
a high-speed conveying device for empty bottles comprises a shell, a conveying belt and a driving device, wherein the shell extends horizontally and is provided with an air suction port with an upward opening; the conveying belt is provided with a plurality of adsorption holes, the conveying belt is arranged around the outer side of the shell and comprises a supporting section which is arranged on the air suction port and used for supporting the empty bottles, the supporting section extends along the horizontal direction, a negative pressure chamber is formed between the supporting section and the shell, and the air suction port is communicated with the negative pressure chamber; the driving device is connected with the conveying belt and used for driving the conveying belt to run.
Further, the casing includes first end plate, second end plate, and first end plate and second end plate setting are at the both ends of conveyer belt, and the both ends of the upside of first end plate are provided with dodges the groove, and the both ends of the upside of second end plate are provided with dodges the groove, and the relative both sides of conveyer belt extend to the casing has the arch, and protruding at least part sets up and is dodging the inslot.
Further, drive arrangement includes first back shaft and second back shaft, first back shaft sets up and keeps away from one side of second end plate and be close to the upper end of first end plate at first end plate, the second back shaft sets up and keeps away from one side of first end plate and be close to the upper end of second end plate at the second end plate, first back shaft cover is equipped with a plurality of first bearings, second back shaft cover is equipped with a plurality of second bearings, first bearing and second bearing be located the both ends of support section and with the inboard butt of conveyer belt, the downside of casing is provided with a plurality of band pulleys that are used for supporting the conveyer belt, drive arrangement still includes the motor, the motor is connected with the drive wheel, drive wheel and conveyer belt are connected.
Furthermore, the first bearings are mutually abutted to form a first assembly, the second bearings are mutually abutted to form a second assembly, the distance between the avoidance grooves in the first end plate is equal to the length of the first assembly, the distance between the avoidance grooves in the second end plate is equal to the length of the second assembly, the first assembly is located between the protrusions, and the second assembly is located between the protrusions.
Further, the casing still includes two curb plates of arranging along the extending direction of perpendicular to casing, and first support shaft sets up between the curb plate and is connected with the curb plate, and the second support shaft sets up between the curb plate and is connected with the curb plate, and the band pulley setting is between the curb plate.
Furthermore, the equal fixedly connected with connecting plate of curb plate, motor and one of them connecting plate fixed connection, the drive wheel setting is between the connecting plate.
Further, be provided with a plurality of stabilizer bars between the curb plate, the stabilizer bar sets gradually along the extending direction of casing, stabilizer bar both ends and the curb plate fixed connection that corresponds.
Furthermore, the number of the air pumping openings is two, and the air pumping openings are respectively arranged at two ends of the shell.
Further, the upside of supporting the section is provided with two guardrails, and the extending direction of guardrail is unanimous with the extending direction who supports the section, forms the passageway that supplies the empty bottle to pass through between the guardrail, guardrail and curb plate one-to-one, and the guardrail passes through coupling assembling and curb plate connection.
Further, coupling assembling includes the base with curb plate fixed connection, the upside fixedly connected with stand of base, and the stand has passed the regulation pole, adjusts pole and curb plate perpendicular and with stand sliding connection, the upper end threaded connection of stand has the fixing bolt who is used for the fixed adjustment pole, adjusts the one end and the guardrail fixed connection of pole.
Compared with the prior art, the utility model provides a pair of high-speed conveyor of empty bottle has following beneficial effect: 1. under the action of the negative pressure chamber, the empty bottles are adsorbed on the conveying belt when being conveyed, so that the stability of the empty bottles is greatly enhanced, the empty bottles do not need to be close to each other, and the empty bottles are convenient to group; 2. the end parts of the conveying belts are turned through the first bearing and the second bearing, so that the transition between the adjacent conveying belts is facilitated; 3. the upside of conveyer belt is provided with two guardrails, carries on spacingly to the side direction of empty bottle.
Drawings
Fig. 1 is a first schematic diagram of an embodiment of the present application.
Fig. 2 is an enlarged view of fig. 1 of an embodiment of the present application.
Fig. 3 is a top view of an embodiment of the present application.
Fig. 4 is a second schematic diagram of an embodiment of the present application.
Fig. 5 is an enlarged view at B of fig. 4 of an embodiment of the present application.
Fig. 6 is an enlarged view at C of fig. 4 of an embodiment of the present application.
Fig. 7 is a cross-sectional view of an embodiment of the present application.
Fig. 8 is a cross-sectional view of a conveyor belt of an embodiment of the present application.
FIG. 9 is a schematic view of the movement of empty bottles between adjacent conveyor belts in an embodiment of the present application.
Detailed Description
The technical solution of the present invention is further specifically described below by way of examples and with reference to the accompanying drawings.
Referring to fig. 1 to 9, a high-speed empty bottle conveying device comprises a housing 11, a conveying belt 13 and a driving device 14, wherein the housing 11 extends horizontally and is provided with an air suction port 111 with an upward opening, and the housing 11 is provided with an air suction port 112; the pumping port 112 is connected with a vacuum pump 12; the conveyer belt 13 is provided with a plurality of adsorption holes 131, the conveyer belt 13 is arranged around the outer side of the shell 11 and comprises a supporting section 132 which is arranged on the air suction port 111 and used for supporting the empty bottle, the supporting section 132 extends along the horizontal direction, a negative pressure chamber 113 is formed between the supporting section 132 and the shell 11, and the suction port 112 is communicated with the negative pressure chamber 113; the driving device 14 is connected with the conveying belt 13 and is used for driving the conveying belt 13 to run.
When the conveyer belt 13 conveys the empty bottles, under the action of the vacuum pump 12, the negative pressure chamber 113 is in a negative pressure state, that is, the air pressure is lower than the atmospheric pressure, at this time, the air in the atmosphere moves to the negative pressure chamber 113 through the adsorption holes 131 on the supporting section 132, and the air passes through the empty bottles and applies a force towards the supporting section 132 to the empty bottles, so that the stability of the empty bottles on the conveyer belt 13 is increased, that is, the empty bottles can stably stand on the conveyer belt 13. In addition, the adsorption hole 131, which is in direct contact with the bottom of the empty bottle, directly adsorbs the empty bottle, thereby increasing the stability of the bottom of the empty bottle, which is not easily separated from the support section 132. The drive device 14 may be provided as a motor 144. Through the arrangement, when the conveying belt 13 conveys the empty bottles, the empty bottles do not need to be mutually abutted, namely, the gap between the empty bottles is large, and the empty bottles are conveniently grouped.
The casing 11 includes first end plate 114, second end plate 115, and first end plate 114 and second end plate 115 set up the both ends at conveyer belt 13, and the both ends of the upside of first end plate 114 are provided with dodges groove 1141, and the both ends of the upside of second end plate 115 are provided with dodges groove 1141, and the relative both sides of conveyer belt 13 extend to casing 11 has arch 133, and arch 133 imbeds in dodging the groove 1141.
The depth of the avoidance groove 1141 is matched with the height of the protrusion 133, and the width of the avoidance groove 1141 is matched with the width of the protrusion 133, so that air entering the negative pressure chamber 113 from the gap between the avoidance groove 1141 and the protrusion 133 is reduced as much as possible. The provision of the projections 133 reduces sagging of the conveyor belt 13 on opposite sides thereof, i.e. increases the lateral flatness of the support segments 132, thereby increasing the stability of the empty bottles.
Drive arrangement 14 includes first support shaft 141 and second support shaft 142, first support shaft 141 sets up and keeps away from one side of second end plate 115 and is close to the upper end of first end plate 114 at first end plate 114, second support shaft 142 sets up and keeps away from one side of first end plate 114 and is close to the upper end of second end plate 115 at second end plate 115, first support shaft 141 overlaps and is equipped with a plurality of first bearings 1411, second support shaft 142 overlaps and is equipped with a plurality of second bearings 1421, first bearing 1411 and second bearing 1421 are located the both ends of support section 132 and the inboard butt of conveyer belt 13, the downside of casing 11 is provided with a plurality of pulleys 143 that are used for supporting conveyer belt 13, drive arrangement 14 still includes motor 144, motor 144 is connected with drive wheel 1441, drive wheel 1441 and conveyer belt 13 are connected. The motor 144 is used to rotate the driving wheel 1441, and when the driving wheel 1441 rotates, the conveying belt 13 can be driven to run. In this embodiment, two ends of the conveyor belt 13 are supported by the first bearing 1411 and the second bearing 1421, the outer diameters of the first bearing 1411 and the second bearing 1421 are smaller, and specifically, the outer diameters of the first bearing 1411 and the second bearing 1421 are less than or equal to 3cm. In actual production, the output end of the conveying belt 13 is provided with another conveying belt 13, a groove 16 exists between the two conveying belts 13, the smaller the outer diameters of the first bearing 1411 and the second bearing 1421 are, the smaller the opening width of the upper end of the groove is, so that when empty bottles pass through the groove between the two conveying belts 13, the more stable the empty bottles can be, and the empty bottles are not easy to fall down.
The first bearings 1411 abut against each other to form a first assembly, the second bearings 1421 abut against each other to form a second assembly, the spacing of the avoidance slots 1141 on the first end plate 114 is equal to the length of the first assembly, the spacing of the avoidance slots 1141 on the second end plate 115 is equal to the length of the second assembly, the first assembly is located between the protrusions 133, and the second assembly is located between the protrusions 133. Since the first assembly is composed of the first bearings 1411, the length of the first assembly can be adjusted by adjusting the number of the first bearings 1411, the design cost is reduced, that is, a corresponding mold does not need to be set for the length of the first assembly with a specific size, and similarly, the design cost of the second assembly can also be reduced, and modular production can be realized.
The housing 11 further includes two side plates 116 arranged in a direction perpendicular to the extending direction of the housing 11, a first support shaft 141 provided between the side plates 116 and connected to the side plates 116, a second support shaft 142 provided between the side plates 116 and connected to the side plates 116, and a pulley 143 provided between the side plates 116. Specifically, both ends of the pulley 143 are rotatably connected to the corresponding side plates 116, and the side plates 116 support the pulley 143.
The side plates 116 are fixedly connected with connecting plates 1161, the motor 144 is fixedly connected with one of the connecting plates 1161, and the driving wheels 1441 are arranged between the connecting plates 1161.
A plurality of stabilizing bars 1162 are arranged between the side plates 116, the stabilizing bars 1162 are sequentially arranged along the extending direction of the housing 11, and two ends of each stabilizing bar 1162 are fixedly connected with the corresponding side plate 116.
The number of the suction ports 112 is two, and are respectively provided at both ends of the housing 11. With the above arrangement, on the one hand, the air pressure of the negative pressure chamber 113 can be made smaller, and the air pressures at both ends can be more equalized.
The upside of support section 132 is provided with two guardrails 1321, and the extending direction of guardrail 1321 is unanimous with the extending direction of support section 132, forms the passageway that supplies the empty bottle to pass through between the guardrail 1321, and guardrail 1321 and curb plate 116 one-to-one, and guardrail 1321 passes through coupling assembling 15 and curb plate 116 connects. The spacing of guardrail 1321 and the width adaptation of empty bottle, empty bottle move to the in-process of the other end from the one end of passageway, and guardrail 1321 is spacing for the side direction of empty bottle.
The connecting assembly 15 comprises a base 151 fixedly connected with the side plate 116, a vertical column 1511 is fixedly connected to the upper side of the base 151, an adjusting rod 1512 penetrates through the vertical column 1511, the adjusting rod 1512 is perpendicular to the side plate 116 and is slidably connected with the vertical column 1511, a fixing bolt 1513 used for fixing the adjusting rod 1512 is in threaded connection with the upper end of the vertical column 1511, and one end of the adjusting rod 1512 is fixedly connected with a guardrail 1321. The width of the channel can be adjusted through the arrangement, during adjustment, the fixing bolt 1513 is rotated, the fixing bolt 1513 is disengaged from the adjusting rod 1512, then the adjusting rod 1512 moves along the axial direction, the width of the channel can be adjusted, after the adjustment is completed, the fixing bolt 1513 is screwed, the fixing bolt 1513 is pressed on the adjusting rod 1512, and therefore the adjusting rod 1512 is fixed.
It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are considered to be within the scope of the invention as defined by the following claims.

Claims (10)

1. An empty bottle high-speed conveying device, characterized by comprising:
the air suction device comprises a shell, a suction pipe and a suction pipe, wherein the shell extends along the horizontal direction and is provided with an air suction port with an upward opening;
the conveying belt is provided with a plurality of adsorption holes, is arranged around the outer side of the shell and comprises a supporting section which is arranged on an air suction port and used for supporting the empty bottle, the supporting section extends along the horizontal direction, a negative pressure cavity is formed between the supporting section and the shell, and the air suction port is communicated with the negative pressure cavity;
and the driving device is connected with the conveying belt and is used for driving the conveying belt to run.
2. The high-speed conveying device for the empty bottles according to claim 1, wherein the housing comprises a first end plate and a second end plate, the first end plate and the second end plate are arranged at two ends of the conveying belt, two ends of the upper side of the first end plate are provided with avoiding grooves, two ends of the upper side of the second end plate are provided with avoiding grooves, two opposite sides of the conveying belt extend towards the housing to form protrusions, and the protrusions are embedded in the avoiding grooves.
3. The high-speed conveying device for empty bottles according to claim 2, wherein said driving device comprises a first supporting shaft and a second supporting shaft, said first supporting shaft is arranged on one side of said first end plate and close to the upper end of said first end plate, said second supporting shaft is arranged on one side of said second end plate and close to the upper end of said second end plate, said first supporting shaft is provided with a plurality of first bearings, said second supporting shaft is provided with a plurality of second bearings, said first bearings and said second bearings are arranged on the two ends of said supporting section and said inner side butt of said conveying belt, said lower side of said housing is provided with a plurality of belt wheels for supporting said conveying belt, said driving device further comprises a motor, said motor is connected with a driving wheel, said driving wheel and said conveying belt are connected.
4. The high-speed empty bottle conveying device according to claim 3, wherein the first bearings abut against each other to form a first assembly, the second bearings abut against each other to form a second assembly, the distance between the avoiding grooves on the first end plate is equal to the length of the first assembly, the distance between the avoiding grooves on the second end plate is equal to the length of the second assembly, the first assembly is located between the protrusions, and the second assembly is located between the protrusions.
5. The high-speed conveying device for empty bottles according to claim 4, wherein the housing further comprises two side plates arranged in a direction perpendicular to the extending direction of the housing, the first supporting shaft is arranged between and connected with the side plates, the second supporting shaft is arranged between and connected with the side plates, and the belt wheel is arranged between the side plates.
6. The high-speed conveying device for the empty bottles according to claim 5, wherein each side plate is fixedly connected with a connecting plate, the motor is fixedly connected with one of the connecting plates, and the driving wheel is arranged between the connecting plates.
7. The high-speed empty bottle conveying device according to claim 5, wherein a plurality of stabilizer bars are arranged between the side plates, the stabilizer bars are sequentially arranged along the extending direction of the shell, and two ends of each stabilizer bar are fixedly connected with the corresponding side plate.
8. The high-speed conveying device for the empty bottles according to claim 1, wherein the number of the pumping ports is two, and the pumping ports are respectively arranged at two ends of the shell.
9. The high-speed conveying device for the empty bottles according to any one of claims 5 to 7, characterized in that two guardrails are arranged on the upper side of the supporting section, the extending direction of the guardrails is consistent with the extending direction of the supporting section, a channel for the empty bottles to pass through is formed between the guardrails, the guardrails and the side plates are in one-to-one correspondence, and the guardrails are connected with the side plates through connecting components.
10. The high-speed conveying device for the empty bottles according to claim 9, wherein the connecting assembly comprises a base fixedly connected with the side plate, a column is fixedly connected to the upper side of the base, an adjusting rod passes through the column, the adjusting rod is perpendicular to the side plate and is slidably connected with the column, a fixing bolt for fixing the adjusting rod is connected to the upper end of the column through a thread, and one end of the adjusting rod is fixedly connected with the guardrail.
CN202221328276.9U 2022-05-27 2022-05-27 High-speed conveyor of empty bottle Active CN218023606U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202221328276.9U CN218023606U (en) 2022-05-27 2022-05-27 High-speed conveyor of empty bottle

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202221328276.9U CN218023606U (en) 2022-05-27 2022-05-27 High-speed conveyor of empty bottle

Publications (1)

Publication Number Publication Date
CN218023606U true CN218023606U (en) 2022-12-13

Family

ID=84373752

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202221328276.9U Active CN218023606U (en) 2022-05-27 2022-05-27 High-speed conveyor of empty bottle

Country Status (1)

Country Link
CN (1) CN218023606U (en)

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